NIELSEN, GUILHERME F.MORAIS, NATHANAEL W.S.SILVA, SELMA L.LIMA, NELSON B. de2020-01-152020-01-15NIELSEN, GUILHERME F.; MORAIS, NATHANAEL W.S.; SILVA, SELMA L.; LIMA, NELSON B. de. Crystallographic texture of hot rolled uranium-molybdenum alloys. In: INTERNATIONAL NUCLEAR ATLANTIC CONFERENCE, October 21-25, 2019, Santos, SP. <b>Proceedings...</b> Rio de Janeiro: Associação Brasileira de Energia Nuclear, 2019. p. 4962-4970. Disponível em: http://repositorio.ipen.br/handle/123456789/30706.http://repositorio.ipen.br/handle/123456789/30706The uranium molybdenum (U-Mo) alloys have potential to be used as low enriched uranium nuclear fuel in research, test and power nuclear reactors. U-Mo alloy with composition between 7 and 10 wt% molybdenum shows excellent body centered cubic phase (γ phase) stabilization and presents a good nuclear fuel testing performance. Hot rolling is commonly utilized to produce parallel fuel plate where it promotes bonding the cladding and the fuel alloy. The mechanical deformation generates crystallographic preferential orientation, the texture, which influences the material properties. This work studied the texture evolution in hot rolled U-Mo alloys. The U7.4Mo and U9.5Mo alloys were melted in a vacuum induction furnace, homogenized at 1000°C for 5 h and then hot rolled at 650°C in three height reductions: 50, 65 and 80%. The as-cast and processed alloys microstructures were characterized by optical and electronic microscopies. The crystalline phases and the texture were evaluated by X-ray diffraction (XRD). The as-cast, homogenized and deformed alloys have γ phase. It was found microstructural differences between the U7.4Mo and U9.5Mo alloys. The homogenized treatment showed effective for microsegregation reduction and were not observed substantial grain size increasing. The deformed uranium molybdenum alloys presented strong γ fiber texture (111) <uvw> and moderated α-fiber texture (hkl) <110>.4962-4970openAccesschemical compositioncrystal structuredeformationmicrostructuremolybdenum alloysnuclear fuelsoptical microscopyrollingscanning electron microscopytextureuranium alloysx-ray diffractionTexto completo de evento0000-0002-6444-9224https://orcid.org/0000-0002-6444-9224